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ME/MECA 238A - Mechanical/Mechatronic Design Project I

ME/MECA 238A - Mechanical/Mechatronic Design Project I. Course notes prepared by G.A. Kallio, based on The Mechanical Design Process, by D.G. Ullman. II. Development of Engineering Specifications. Reading: Ullman, Ch. 6. Development of Engineering Specifications.

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ME/MECA 238A - Mechanical/Mechatronic Design Project I

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  1. ME/MECA 238A - Mechanical/Mechatronic Design Project I Course notes prepared by G.A. Kallio, based on The Mechanical Design Process, by D.G. Ullman ME/MECA 238A

  2. II. Development of Engineering Specifications Reading: Ullman, Ch. 6 ME/MECA 238A

  3. Development of Engineering Specifications • Translate customer requirements to quantitative specifications of performance, size, weight, cost, etc. • Some requirements may only translate into qualitative specifications, or features, such as appearance, adaptability, serviceability, etc. ME/MECA 238A

  4. Quality Function Deployment (QFD) • Proven to reduce time and cost of product development • 1995 survey shows that 69% of 150 US companies use QFD • Separates the what needs to be designed from the how the design will work and look • House of Quality (Figures 6.2, 6.3) ME/MECA 238A

  5. QFD, Step 1: Identify Customers (“who”) • Consumer • Management • Manufacturing personnel • Marketing/Sales staff • Service personnel • Standards organizations (e.g., ANSI, UL, ASTM, etc.) ME/MECA 238A

  6. QFD, Step 2: Determine Customer Requirements (“what”) • Customer satisfaction • Basic, performance, & excitement qualities • Collection methods • Written surveys • Focus groups • Types of requirements (Table 6.1) ME/MECA 238A

  7. QFD, Step 3: Determine Relative Importance of Requirements (“who vs. what”) • Survey several representatives from each customer group • Requirements are either “ranked” or “weighted” within each customer group • fixed sum weighting method is suggested, where a sum (e.g., 100 points) is distributed among the requirements ME/MECA 238A

  8. QFD, Step 4: Identify and Evaluate the Competition(“now vs. what”) • aka competition benchmarking • Compare each competing product with customer requirements • Subjective comparison – use 1 to 5 scale 1 = design does not meet requirement at all 5 = design fulfills requirement completely ME/MECA 238A

  9. QFD, Step 5: Generate Engineering Specifications (“how”) • Develop parameters that tell how each customer requirement has been met • Find all possible ways to measure each customer requirement • Abstract requirements need refinement ME/MECA 238A

  10. QFD, Step 6: Relate Customers’ Requirements to Specifications (“what vs. how”) • Rate strength of relationship between engineering specification to each customer requirement  = strong relationship  = medium relationship  = weak relationship Blank = no relationship ME/MECA 238A

  11. QFD, Step 7: Set Engineering Targets (“how vs. how much”) • Quantify competition’s specifications • Determine numerical target value for each engineering specification • Usually meets or exceeds competition • Large improvements need justification (new technology, better concepts ??) ME/MECA 238A

  12. QFD, Step 8: Identify Relationships Between Specifications (“how vs. how”) • Identify relationships among engineering specifications • Use -3, -1, 3, 9 system (see section 6.9) • Meeting one specification may have a positive or negative effect on another ME/MECA 238A

  13. QFD: Comments • QFD process is as important as its results • QFD is a working document • is often revised & updated during design process • serves as a design record and communication tool ME/MECA 238A

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